Remote controlled video messaging session

ABSTRACT

A video messaging system facilitates a video messaging session between a client device and a remote device. A remote device provides information (e.g., a link) to a client device for connecting to a video messaging session. The client device uses the provided information to connect to the video messaging session between the client device and the remote device. The video messaging session generally includes two-way communication, with at least video information being transmitted by the client device to the remote device, and instructions describing video operations being transmitted by the remote device to the client device. The video operations may include annotating the video, rewinding the video, pausing the video, and various other modifications to the video. The video messaging system may mirror operations performed on one device (e.g., the remote device) on the other device (e.g., the client device) in the video messaging session.

CROSS REFERENCE TO RELATED APPLICATIONS

This application claims the benefit of and priority to U.S. ProvisionalApplication No. 62/867,561, filed Jun. 27^(th), 2019, the entirecontents of which are hereby incorporated by reference for all purposesas if fully set forth herein.

TECHNICAL FIELD

The subject matter described generally relates to video messaging, andmore specifically to remote controlled video messaging sessions.

BACKGROUND

Customer service interactions, such as voice calls or online chatsessions, involving issues with physical products (e.g., computerhardware or other devices) traditionally require a customer to describea configuration of a physical product to a customer servicerepresentative (e.g., a hardware configuration). Likewise, the customerservice representative is required to ask questions about theconfiguration or describe a potential reconfiguration solution to thecustomer. However, this process can be awkward and confusing for acustomer not otherwise well-versed in the physical product, which canincrease a length and/or decrease a likelihood of success of a customerservice call. Existing systems do not provide a solution to overcomethese limitations of customer service interactions.

SUMMARY

In various embodiments, a video messaging system facilitates a videomessaging session between a client device and a remote device. A remotedevice provides information to a client device for connecting to a videomessaging session, such as a link provided via text message, email, orwithin an application running on the client device (such as an instantmessaging app or a web browser). The client device uses the providedinformation to connect to the video messaging session between the clientdevice and the remote device. The video messaging session generallyincludes two-way communication, with at least video information beingtransmitted by the client device to the remote device, and instructionsdescribing video operations being transmitted by the remote device tothe client device.

In some embodiments, the remote device and/or the client device performvideo operations on the captured video which modify the captured video.Modifications of the captured video may include adding annotations tothe captured video, freezing the captured video, rewinding the capturedvideo, and the like. The video messaging system may mirror themodifications resulting from video operations on one device in the videomessaging session (e.g., the remote device) on the other device (e.g.,the client device) based on the provided instructions.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a block diagram of a system environment for a video messagingsystem, according to an embodiment.

FIG. 2A is a block diagram of a client video messaging module, accordingto an embodiment.

FIG. 2B is a block diagram of a remote video messaging module, accordingto an embodiment.

FIG. 3 illustrates a video messaging session between a client device anda remote device, according to an embodiment.

FIG. 4A illustrates a remote-controlled video messaging interfaceincluding an outline annotation, according to an embodiment.

FIG. 4B illustrates a remote-controlled video messaging interfaceincluding a pointer annotation, according to an embodiment.

FIG. 4C illustrates a remote-controlled video messaging interfaceincluding a drawn annotation, according to an embodiment.

FIG. 5 is a flow diagram illustrating a method for executing aremote-controlled video messaging session, according to an embodiment.

DETAILED DESCRIPTION System Architecture

FIG. 1 is a block diagram of a system environment for a video messagingsystem, according to an embodiment. The system environment 100 includesa client device 110 and a remote device 130 communicatively coupled viaa network 140, and a subject device 120. An exemplary context in whichthe system environment 100 may be used is a customer service context inwhich a video messaging session is facilitated between a customer usingthe client device 110 (i.e., a client user) and a customer support agentusing the remote device 130 (i.e., a remote user). In other embodiments,the system environment 100 may be used in other contexts, such asinteractions between buyers and sellers in an online marketplace,interactions between homeowners and service workers (such as cleaners,construction teams, and the like), and interactions between travelersand travel agents. Additionally, in other embodiments the systemenvironment 100 may include additional or different components relativeto those depicted in FIG. 1.

The client device 110 facilitates a video messaging session between theclient device 110 and the remote device 130 for a user of the clientdevice 110. The client device 110 includes a camera 112, a clientdisplay 114 (e.g., a screen), and a client video messaging module 116.The client device 110 may initiate a video messaging session with theremote device 130. For example, the client device 110 may initiate thevideo messaging session in response to an interaction from a user of theclient device 110 with a user interface displayed on the client display114. During a video messaging session, the client device 110 may capturevideo using the camera 112 and provide the captured video to the remotedevice 130 over the network 140. The client device 110 may includevarious electronic devices operated by a client user, including a mobilecomputing device (e.g., a smartphone or tablet), a smartwatch, a laptopcomputer, or a desktop computer.

The client video messaging module 116 communicates with the remotedevice 130 over the network 140. The client video messaging module 116may process video captured by the camera 112, for instance by addinggraphical elements (e.g., annotations) to the video or otherwiseperforming operations on the captured video. The client video messagingmodule 116 provides the captured video to the remote device 130. Theclient video messaging module 116 may further provide other data to theremote device 130, such as text (e.g., chat messages) and audio (e.g.,client user voice recordings). The client video messaging module 116 mayprovide a user interface for display on the client display 114. The userinterface provided by the client video messaging module 116 may allow aclient user to initiate a video messaging session with the remote device130, to modify the captured video during a video messaging session, toterminate and/or pause the video messaging session, and to otherwiseallow the client user to communicate with a remote user of the remotedevice 130. The client video messaging module 116 is described ingreater detail below with reference to FIG. 2A.

The subject device 120 is a device captured by the client device 110using the camera 112 during a video messaging session, as indicated bythe dotted line. The subject device 120 may be a device for which theclient user desires assistance (e.g., operating the subject device 120,assembling the subject device 120, etc.). In the exemplary case wherethe remote user is a customer service agent, the subject device 120 maybe a physical product for which the customer service agent can provideassistance. It should be noted that although the term “subject device”is used in the embodiment of FIG. 1, in practice the remote-controlledvideo messaging session described herein can include video captured ofany object or subject matter (such as an automobile, plumbing within ahouse, groceries on a shelf of a store, and the like).

The remote device 130 facilitates a video messaging session between theclient device 110 and the remote device 130 for a user of the remotedevice 130. The remote device 130 includes a remote display 132 and aremote video messaging module 134. The remote device 130 may receive arequest to initiate a video messaging session with the client device110. The remote device 130 may initiate the video messaging sessionbased on the request, such as in response to an interaction from aremote user with a user interface displayed on the remote display 132.During a video messaging session, the remote device 130 may receivevideo captured by the client device 110. Furthermore, the remote device130 may modify the video displayed by the remote display 132 orotherwise perform operations on the received video, and/or may transmitinstructions to the client device 110 to perform similar operations onthe video displayed by the client display 114. The remote device 130 mayinclude various electronic devices operated by a remote user, includinga mobile computing device (e.g., a smartphone or tablet), a laptopcomputer, a desktop computer, a computer terminal, or a web server.

The remote video messaging module 134 communicates with the clientdevice 110 over the network 140. In particular, the remote videomessaging module 134 may enable the client device 110 to join a videomessaging session initiated by the remote video messaging module 134.For example, the remote video messaging module 134 may provide a link(such as a hyperlink or a URL), token, interface, or other informationfor connecting to a video messaging session to the client device 110.Similar to the client video messaging module 116, the remote videomessaging module 134 may process video received from the client device110 and provide information to the client device 110, such asinstructions to modify the captured video, text (e.g., chat messages),and audio (e.g., remote user voice recordings). The remote videomessaging module 134 may provide a user interface for display on theremote display 132. The user interface provided by the remote videomessaging module 134 may allow a remote user to perform the same and/orsimilar functions as those described above in relation to the clientvideo messaging module 116, and may also allow for different and/oradditional functions. The remote video messaging module 134 is describedin greater detail below with reference to FIG. 2B.

The network 140 may comprise any combination of local area and/or widearea networks, using wired and/or wireless communication systems. In oneembodiment, the network 140 uses standard communications technologiesand/or protocols. For example, the network 140 includes communicationlinks using technologies such as Ethernet, 802.11 (WiFi), worldwideinteroperability for microwave access (WiMAX), cellular networks (e.g.,3G, 4G, 5G), code division multiple access (CDMA), digital subscriberline (DSL), Bluetooth, Near Field Communication (NFC), Universal SerialBus (USB), or any combination of communication protocols (e.g., TCP/IP,HTTP, S1v1TP, FTP), encodings or formats (e.g., HTML, JSON, XML), and/orprotection schemes (e.g., VPN, secure HTTP, SSL). In some embodiments,all or some of the communication links of the network 140 may beencrypted using any suitable technique or techniques.

FIG. 2A is a block diagram of a client video messaging module 116,according to an embodiment. The client video messaging module 116includes a client messaging session module 210 and a client videoprocessing module 220. In other embodiments, the client video messagingmodule 116 may include additional and/or different components.

The client messaging session module 210 communicates with the remotedevice 130 (e.g., via the remote messaging session module 230). Inparticular, the client messaging session module 210 may connect to avideo messaging session with the remote device 130. Through the videomessaging session, the client messaging session module 210 may providevideo captured by the client device 110 (e.g., using the camera 112) tothe remote device 130. The captured video provided by the clientmessaging session module 210 may by modified (e.g., by the client videoprocessing module 220, as described below). Alternatively, the clientmessaging session module 210 may provide instructions to the remotedevice 130 to modify the captured video received from the client device110 prior to display. The client messaging session module 210 mayprovide a user interface associated with the video messaging session fordisplay by the client display 114 (i.e., a client interface). The clientinterface may include the video captured by the client device 110 (e.g.,by the camera 112). Additionally, the client interface may includeelements allowing the client user to modify the captured video, such asby annotating the video with one or more graphical elements. The clientmessaging session module 210 may further transmit the captured video tothe remote device 130. Additionally, the client messaging session module210 may receive information from the remote device 130, such asinstructions for modifying the captured video as displayed by the clientdevice 110, which is described in greater detail below with reference toFIG. 2B. In response to instructions from the remote device 130 and/orinteractions by the client user with the client device 110, the clientmessaging session module 210 may provide instructions to the clientvideo processing module 220 to modify the captured video, as describedin greater detail below.

In some embodiments, the remote device 130 may be associated with anetwork service (e.g., provided by one or more servers), such as awebsite or web application. In this case, the client messaging sessionmodule 210 may connect to the video messaging session using an interfaceprovided by the network service (e.g., a user interface, an applicationprogramming interface (API), etc.). The client messaging session module210 may request to initiate the video messaging session through theinterface, such as in response to a user interaction with the clientdevice 110. In this case, the client messaging session module 210 mayreceive information from the network service and/or the remote device130 enabling the client messaging session module 210 to join a videomessaging session. For example, the client messaging session module 210may receive a selectable link for presentation to the client user (e.g.,via the client display 114). Responsive to an interaction with the link,the client messaging session module 210 may connect to a video messagingsession provided by the network service and display a user interfaceassociated with the video messaging session. Additionally, the clientmessaging session module 210 may begin capture of video (e.g., using thecamera 112) based on an interaction with the link and/or provide thecaptured video to the remote device 130. Initiating the video messagingsession via the remote device 130 is described in greater detail belowwith reference to FIG. 2B.

In some embodiments, the client messaging session module 210 may connectto a video messaging session (e.g., using a link provided by the remotedevice 130) using internet video communication protocols, such asWebRTC. In such embodiments, video captured by the camera 112 of theclient device 110 can be displayed by both the client device 110 and theremote device 130 via a web browser or other application that utilizesvideo APIs. Such embodiments beneficially enable the video messagingsystem to be used by the client user without having to installadditional software (such as a dedicated video messaging sessionapplication). Accordingly, when connecting to the video messagingsession, the client messaging session module 210 is directed to an IPaddress that, via one or more API calls, initiates the capture of videoby the client device 110 and the subsequent transmission of the video tothe remote device 130.

In some embodiments, the client messaging session module 210 displays aclient interface including the captured video, modifications to thereceived video received from the remote device 130, and/or elementsallowing the client user to perform graphical operations on the capturedvideo. (e.g., adding annotations, rewinding the video, pausing thevideo, etc.). Graphical operations and other modifications of thecaptured video are described in greater detail below with reference tothe remote messaging session module 230.

In some embodiments, the video messaging session includes audio,enabling the client user and the remote user to speak during the videomessaging session. In this case, the client messaging session module 210provides audio signals to the remote device 130 and receives audiosignals from the remote device 130. In other embodiments, the videomessaging session does not include audio—in such embodiments, audiosignals can be transmitted via a separate audio session, for instancevia a phone call between the client user and the remote user. Forexample, the client user can call a customer service representative(e.g., the remote user), and the customer service representative cansend the link to establish the video messaging session to the clientdevice 110. After the client user initiates the video messaging sessionby selecting the link, the call between the client user and the customerservice representative can continue, allowing the client user to speakto the customer service representative via the call and enabling thecustomer service representative to view video captured by the clientdevice 110 via the video messaging session. In the same or differentembodiments, the video messaging session may facilitate other means ofcommunications, such as text messaging.

The client video processing module 220 modifies video captured by theclient device 110. The client video processing module 220 may modify thecaptured video as displayed by the client device 110 (e.g., on theclient display 114), such as rewinding the video or adding an annotationto one or more frames of the video. The client video processing module220 may modify the video displayed by the client device 110 in responseto instructions from the client messaging session module 210, asdescribed above. The instructions received by the client videoprocessing module 220 may describe operations performed by a remote useron the captured video as displayed by the remote device 130. In thiscase, the client video processing module 220 may modify the videodisplayed by the client device 110 by performing the same operations onthe video displayed by the client device 110. For instance, if theoperations performed by remote user rewind the video to a particularframe, freeze the video, and add a graphical outline (or “box”) around aportion of the frame, the client video processing module 220 can rewindthe video displayed by the client device 110 to the particular frame,freeze the video, and add the graphical outline around the portion ofthe frozen frame.

In some embodiments, video displayed by the client device 110 on theclient display 114 is a real-time video stream as it is captured by thecamera 112 (as opposed to video captured by the client device 110, thentransmitted to the remote device 130, and subsequently re-transmittedback to the client device 110 for display on the client display 114). Insuch embodiments, modifications to the video made by the remote device130 are communicated to the client device 110 as instructions to beperformed by the client video processing module 220. For modificationsinvolving the rewinding of video, the client video processing module 220may be configured to buffer video captured by the client device 110 fora period of time, enabling the client video processing module 220 toretrieve previously captured video from the buffer when instructed torewind the video. For example, the remote device 130 may also buffer thecaptured video, and in response to a rewind operation by the remote userthe remote device 130 may transmit an identifier of a frame (e.g., aframe number) in the buffered video to which the remote user rewound thecaptured video. In this case, the client video processing module 220 mayuse the received identifier to rewind the captured video as displayed bythe client display 114 to the corresponding frame. By buffering thecaptured video and communicating video modifications using minimal datasuch as an identifier or other signal, the client device 110 and theremote device 130 may reduce latency for the video messaging session.

Due to the lag inherent in video transmission, certain operationsperformed by the remote device 130 on the captured video (such as theinclusion of annotations) may be displayed by the client device 110 onvideo several frames after the video is displayed by the remote device130 on which the operations to include the annotations were performed.In such embodiments, the direction or field of view of the videocaptured by the client device 110 may have shifted or changedsignificantly enough that the annotations are no longer relevant to thevideo displayed by the client device 110. For instance, a remote usercan highlight a particular motherboard connector interface within videodisplayed by the remote device 130—if the field of view of the camera112 shifts significantly between the time the highlight operation isperformed and the time the client video processing module 220 receivesan instruction to perform the same highlight operation, a portion of thevideo that does not include the motherboard connector may behighlighted, and indeed the motherboard connector may no longer bedisplayed within the video.

To account for this, the client video processing module 220 or theclient messaging session module 210 may display video captured by theclient device 110 at a delay selected to account for the lag between theclient device 110 and the remote device 130. Alternatively, the remotedevice 130 may transmit the entire video in conjunction with informationdescribing the performed operations, and the client device 110 maydisplay the video received from the remote device 130 and modified basedon the performed operations.

FIG. 2B is a block diagram of the remote video messaging module 134,according to an embodiment. The remote video messaging module 134includes a remote messaging session module 230, a remote videoprocessing module 240, and a messaging session store 250. In otherembodiments, the remote video messaging module 134 may includeadditional and/or different components.

The remote messaging session module 230 communicates with the clientdevice 110 (e.g., via the remote messaging session module 230). Inparticular, the remote messaging session module 230 may perform similarprocesses as those described above for the client video processingmodule 220 for the remote device 130 side of a video messaging session.As described above in relation to the client messaging session module210, the remote messaging session module 230 may connect to a videomessaging session with the client device 110. In particular, the remotemessaging session module 230 may receive a request from the clientdevice 110 (e.g., from the client video messaging module 116) toinitiate a video messaging session.

In response to the request, the remote messaging session module 230 mayinitialize a video messaging session. For example, the remote messagingsession module 230 may use an internet video communication protocol torequest video capture by the client device 110 over the network 140.After initializing the video messaging session, the remote messagingsession module 230 may provide information to the client device 110enabling the client device 110 to provide video captured using thecamera 112 through the video messaging session. For example, the remotemessaging session module 230 may provide a URL link to the client device110 in a text message, email, web page, application interface, or thelike. Through the video messaging session, the remote messaging sessionmodule 230 may receive video captured by the client device 110 and/orinformation describing modifications to the captured video. Similarly tothe client messaging session module 210, as described above, the remotemessaging session module 230 may provide a user interface for display bythe remote display 132 (i.e., a remote interface).

The remote interface may include the video received from the clientdevice 110, modifications to the received video, and/or elementsallowing the remote user to modify the captured video (e.g., addingannotations, rewinding the video, pausing the video, etc.). Inparticular, the remote interface may include elements allowing theremote user to perform one or more graphical operations on the capturedvideo. For instance, the remote interface may allow the remote user tozoom in on a portion of the video, adjust a brightness of the video, orpan the video. In the same or different embodiments, the remoteinterface may allow the remote user to freeze the video on a particularframe, rewind or fast forward the video, play the video in slow motion,and the like. In some embodiments, the remote interface allows theremote user to perform a combination of these operations. For example,the remote user may perform a series of interactions with the remoteinterface which results in operations including rewinding the videodisplayed by the remote device 130 to a particular frame, freezing thevideo at that frame, and adding an annotation highlighting a particularportion of the video. This enables the remote user to navigate to arelevant portion of the video and flag a portion of the video for theclient user. Such operations beneficially allow the user of the remotedevice 130 to account for an inconsistent capture of video by the clientdevice 110 due to behavior of the client user, for instance when theclient user moves the client device 110 and/or the camera 112 around,changes the field of view of the camera 112 too quickly, or points thecamera 112 in a direction other than a direction desired by a remoteuser. As described above with reference to the client messaging sessionmodule 210, the client device 110 may display a client interface whichallows the client user to perform the same or different operations asthe remote interface.

In some embodiments, the remote interface includes elements allowing theremote user to record the captured video, store the recorded video inthe messaging session store 250, and/or share the captured video withone or more other devices. The remote messaging session module 230 mayprovide instructions to the client video processing module 220 to modifythe captured video, as described in greater detail below with referenceto the remote video processing module 240.

In some embodiments, the remote messaging session module 230 may providean interface for display to the client device 110 in response to aninteraction with a link requesting permission to access the camera 112and/or receive video captured by the camera 112 (i.e., a permissionsinterface). In this case, the client device 110 may begin capturingvideo with the camera 112 based on an interaction by the user of theclient device 110 with the permissions interface, such as agreeing togrant access to the camera 112 by the remote messaging session module230 and/or other component of the system environment 100 associated withthe video messaging session. The permissions interface may furtherinclude a request to access a microphone of the client device 110 inorder to receive audio from the client user. Furthermore, thepermissions interface may include additional information for the clientuser to review, such as terms, conditions, and/or other privacy policiesassociated with the video messaging session.

In some embodiments, the remote messaging session module 230 providesinstructions to the client device 110 to mirror operations performed bythe remote device 130 on the captured video. As such, the remote usermay be able to display and indicate a portion of the video captured bythe client device 110 relevant to a subject of the video messagingsession between the remote user and the client user. For instance, inthe context of a customer service call about computer hardware, acustomer service representative (e.g., remote user) can cause the clientdevice 110 to display a portion of video captured by the client device110, and can highlight a particular portion of the computer hardwarewithin the displayed portion of video in order to suggest the clientuser interact with the portion of the computer hardware.

In some embodiments, the remote messaging session module 230 initiatesthe video messaging session or other communications (e.g., voice calls,text-based chats, etc.) within the context of a ticketing system. Forinstance, the remote messaging session module 230 may assign eachrequest from the client device 110 for a video messaging session to aticket corresponding to a subject matter of the video messaging session.Additionally, the remote messaging session module 230 may assign videomessaging sessions or other communications from the same client device110 regarding the same subject to the same ticket, such that allcommunications associated with the ticket can be viewed within acentralized interface. Furthermore, the remote messaging session module230 may store the communications assigned to a ticket in the messagingsession store 250. The remote messaging session module 230 may providethe centralized interface for viewing previous communications for aparticular ticket stored in the messaging session store 250. Forexample, the remote messaging session module 230 may provide mechanismsenabling a client user or a remote user to view the video of previousvideo messaging sessions associated with a ticket, allowing for qualityassurance auditing and review by individuals associated with the remotevideo messaging module 134, and enabling training of new servicerepresentatives associated with the remote video messaging module 134.

In some embodiments, the remote messaging session module 230 providesinformation to an additional device (e.g., another remote device used byanother remote user) enabling the additional device to connect to thevideo messaging session and/or to view some or all of the video capturedby the client device 110. For example, a customer service representativemay be unable to successfully assist the client user regarding aquestion about a product or service. In this case, the customer servicerepresentative may wish to consult an additional customer servicerepresentative or other customer service team member regarding thequestion. The remote device 130 may then provide a link to an additionalremote device of the additional customer service representative so theadditional remote device can join the video messaging session and/orview the video captured by the client device 110. The additional remotedevice may receive video which has been modified by either the clientdevice 110 or the remote device 130.

In some embodiments the remote messaging session module 230 performsprocesses to account for lag. In particular, the remote messagingsession module 230 may send instructions to the client device 110 toprompt the client user to freeze video displayed by the client device110. The remote messaging session module 230 may then receive the frozenframe of video displayed by the client device 110 and display the frozenframe, allowing the remote user to perform an operation on the frozenframe. The remote messaging session module 230 may then provideinstructions to the client device 110 describing the operation, whichthe client device 110 may then perform on the frozen frame as displayedby the client device 110 for viewing by the client user.

The remote video processing module 240 modifies video received from theclient device 110. In particular, the remote video processing module 240may perform similar processes as those described above for the clientvideo processing module 220 for the remote device 130 side of a videomessaging session. The remote video processing module 240 may modify thevideo received from the client device 110 as displayed by the remotedevice 130 (e.g., on the remote display 132) is accordance withinteractions by the remote user with the remote interface orinstructions received from the client device 110. The remote videoprocessing module 240 may modify the video displayed by the remotedevice 130 in response to instructions from the remote messaging sessionmodule 230, such as based on interactions by the remote user with theremote interface. The instructions received by the remote videoprocessing module 240 may describe interactions by the remote user withthe remote interface indicating intended operations to be performed onthe captured video. In this case, the remote video processing module 240may modify the video displayed by the remote device 130 by modifying thevideo in accordance with the instructions. The remote video processingmodule 240 may alternatively receive instructions describing operationsperformed by the client device 110 on the captured video (e.g., based oninteractions by the client user with the client interface). In thiscase, the remote video processing module 240 may modify the video fordisplay by the remote device 130 to mirror the operations performed bythe client device 110, similarly to the client video processing module220.

In some embodiments, the remote video processing module 240 processesthe video received from the client device 110 before it is displayed bythe remote device 130. In particular, the remote video processing module240 may stabilize the video in order to account for movement of thecamera 112 by the client user. The remote video processing module 240may stabilize the video using various techniques, such as performing adigital zoom on the video (e.g., enlarging the video), rotating thevideo to counter rapid movements of the camera 112, and the like.

FIG. 3 illustrates a video messaging session 300 between the clientdevice 110 and the remote device 130, according to an embodiment. Aspart of the video messaging session 300, the client display 114 displaysa client interface for the client user 305 including a client video 310captured by the camera 112 and client annotation controls 330. Theclient video 310 depicts a subject computer device 320 which is withinthe field of view 315 of the camera 112. For example, the subjectcomputer device 320 may be a desktop computer owned by the client user305. Although a computer is illustrated as the subject matter of thevideo messaging session 300, it should be noted that in other examplesthe video captured by the client device 110 may include anything withinthe field of view 315 of the camera 112.

The client video 310 is modified to additionally include a remoteannotation 325 (e.g., a pointer annotation). In the example depicted inFIG. 3, the client device 110 added the remote annotation 325 to theclient video 310 based on instructions received by the client device 110to mirror operations corresponding to an interaction by the remote user335 with the remote annotation controls 350. In other examples, theremote annotation 325 may be a different annotation (e.g., a highlight,a drawing, an augmented reality element, etc.), and/or may have beenadded to the client video 310 based on an interaction by the client user305 with the client annotation controls 330. The client annotationcontrols 330 as depicted in FIG. 3 include buttons for adding an outlineannotation to the client video 310, adding a pointer annotation to theclient video 310, adding drawn annotations (e.g., free-form drawings) tothe client video 310, pausing the client video 310, and rewinding theclient video 310. In other embodiments, the client annotation controls330 may include additional controls for performing other operationsand/or be represented differently on the client interface as displayedby the client display 114.

As another part of the video messaging session 300, the remote display132 displays a remote interface for the remote user 335 including aremote video 340 received by the remote device 130 over the network 140and remote annotation controls 350. The remote video 340 depicts thesame content as the client video 310. In particular, the remote device130 has modified the remote video 340 to include the remote annotation325 in response to an interaction by the remote user 335 with theselected annotation control 345 (as indicated by the bold outline)included in the remote annotation controls 350. As depicted in FIG. 3,the client annotation controls 330 and the remote annotation controls350 include the same elements. In other examples, the client annotationcontrols 330 and the remote annotation controls 350 may includedifferent elements for adding annotations to the client video 310 andthe remote video 340 and/or otherwise interacting with the videomessaging session 300.

In other embodiments, the client interface as displayed by the clientdisplay 114 and/or the remote interface as displayed by the remotedisplay 132 may include additional interface elements. For example, theclient interface may include elements for requesting to initiate a videomessaging session 300 with the remote device 130. As another example,the remote interface may include elements for initiating the videomessaging session 300, sending information to the client device 110 toconnect to the video messaging session 300, creating a ticket for thevideo messaging session 300, recording the remote video 340, terminatingthe video messaging session 300, or providing information to anotherremote device regarding the video messaging session 300 (e.g., anotherlink to join the video messaging session 300).

EXAMPLE ANNOTATIONS

FIGS. 4A-4C illustrate a display 400 (e.g., the client display 114 orthe remote display 132) displaying remote-controlled video messaginginterfaces with example annotations as part of a video messaging session(e.g., the video messaging session 300). Similar to the client andremote interfaces depicted in FIG. 3, the video messaging interfacedisplayed by the display 400 includes a video 410 and annotationcontrols 420. The example annotations discussed below are described inthe context of being added to the video 410 by a user interacting withthe annotation controls 420. However, the example annotations may alsohave been added to the video 410 based on instructions received fromanother device connected to the video messaging session, as describedabove.

FIG. 4A illustrates a remote-controlled video messaging interface withan outline annotation 430 of the video 410, according to an embodiment.The outline annotation 430 may have been dragged and dropped on thevideo 410 by a user interacting with the annotation controls 420 (e.g.,the client user or the remote user). The user may further be able toadjust or edit the outline annotation 430, such as rotating, expanding,contracting, coloring, or performing other visual alterations of theoutline annotation 430.

FIG. 4B illustrates a remote-controlled video messaging interfaceincluding a pointer annotation 440 of the video 410, according to anembodiment. As with the outline annotation 430, the pointer annotation440 may have been dragged and dropped on the video 410 by a userinteracting with the annotation controls 420 (e.g., the client user orthe remote user). Alternatively, the pointer annotation 440 maycorrespond to a cursor controlled by the user (e.g., using a mouse, afinger, etc.). The user may further be able to adjust or edit thepointer annotation 440 similarly to the to the outline annotation 430.As used herein, a cursor refers to any visual indicator used to show aposition on a display of a device (e.g., the client display 114 or theremote display 132) specified by an interaction from a user with thedevice.

FIG. 4C illustrates a remote-controlled video messaging interfaceincluding a drawn annotation 450, according to an embodiment. The drawnannotation 450 may have been drawn on the video 410 by a userinteracting with the annotation controls 420, such as drawing on thevideo 410 with a cursor, stylus, finger, or the like. The user mayfurther be able to adjust or edit the drawn annotation 450 similarly tothe to the outline annotation 430 and the pointer annotation 440.

In other embodiments than those depicted in FIGS. 4A-4C, the display 400displays a video messaging interface including different and/oradditional types of annotations and corresponding annotation controls.In particular, the video messaging interface may provide forthree-dimensional annotations instead of (or in addition to) thetwo-dimensional annotations depicted in FIGS. 4A-4C. Three-dimensionalannotations may include augmented reality content, such asthree-dimensional objects positioned within the video 410 so as toappear in the environment captured by the video 410 (e.g., an outline,pointer, highlight, drawing, or other three-dimensional shape in thevideo 410 which appears to remain in the same position in theenvironment as the camera 112 capturing the video 410 moves).

Video Messaging Session with Video Annotations

FIG. 5 is a flow diagram of a method for executing a remote-controlledvideo messaging session, according to an embodiment. The remote device130 provides 510 a link for display by the client device 110. Forexample, the remote device 130 may receive a request to initiate a videomessaging session from the client device 110. In this case, the remotedevice 130 may initialize a video messaging session and provide a link(e.g., a URL) to the client device 110 to enable to client device 110 toconnect to the video messaging session. In response to a selection ofthe link by a user of the client device 110, the remote device 130causes 520 a camera of the client device 110 to capture video. Theclient device 110 may display the captured video on a screen of theclient device 110 (e.g., the client display 114). After receiving thecaptured video from the client device 110, the remote device 130displays 530 the captured video provided by the client device 110 on ascreen of the remote device 130 (e.g., the remote display 132).

The remote device 130 then receives 540 an operation performed on thedisplayed video by a user of the remote device 130. For example, theremote user may modify the captured video to include one or moreannotations, pause the video, rewind the video, or perform any of theother operations described herein. Based on the operation, the remotedevice 130 provides 550 instructions to the client device 110 to modifythe video based on the operation. For example, the remote device 130 mayprovide instructions to the client device 110 to modify the videodisplayed by the client device 110 in order to mirror modifications tothe video displayed by the remote device 130.

ADDITIONAL CONSIDERATIONS

Some portions of the above description describe the embodiments in termsof algorithmic processes or operations. These algorithmic descriptionsand representations are commonly used by those skilled in the dataprocessing arts to convey the substance of their work effectively toothers skilled in the art. These operations, while describedfunctionally, computationally, or logically, are understood to beimplemented by computer programs comprising instructions for executionby a processor or equivalent electrical circuits, microcode, or thelike. Furthermore, it has also proven convenient at times, to refer tothese arrangements of functional operations as modules, without loss ofgenerality.

As used herein, any reference to “one embodiment” or “an embodiment”means that a particular element, feature, structure, or characteristicdescribed in connection with the embodiment is included in at least oneembodiment. The appearances of the phrase “in one embodiment” in variousplaces in the specification are not necessarily all referring to thesame embodiment.

Some embodiments may be described using the expression “coupled” and“connected” along with their derivatives. It should be understood thatthese terms are not intended as synonyms for each other. For example,some embodiments may be described using the term “connected” to indicatethat two or more elements are in direct physical or electrical contactwith each other. In another example, some embodiments may be describedusing the term “coupled” to indicate that two or more elements are indirect physical or electrical contact. The term “coupled,” however, mayalso mean that two or more elements are not in direct contact with eachother, but yet still co-operate or interact with each other. Theembodiments are not limited in this context.

As used herein, the terms “comprises,” “comprising,” “includes,”“including,” “has,” “having” or any other variation thereof, areintended to cover a non-exclusive inclusion. For example, a process,method, article, or apparatus that comprises a list of elements is notnecessarily limited to only those elements but may include otherelements not expressly listed or inherent to such process, method,article, or apparatus. Further, unless expressly stated to the contrary,“or” refers to an inclusive or and not to an exclusive or. For example,a condition A or B is satisfied by any one of the following: A is true(or present) and B is false (or not present), A is false (or notpresent) and B is true (or present), and both A and B are true (orpresent).

In addition, use of the “a” or “an” are employed to describe elementsand components of the embodiments. This is done merely for convenienceand to give a general sense of the disclosure. This description shouldbe read to include one or at least one and the singular also includesthe plural unless it is obvious that it is meant otherwise.

Upon reading this disclosure, those of skill in the art will appreciatestill additional alternative structural and functional designs for asystem and a process for detecting and mitigating system breaches. Thus,while particular embodiments and applications have been illustrated anddescribed, it is to be understood that the described subject matter isnot limited to the precise construction and components disclosed hereinand that various modifications, changes and variations which will beapparent to those skilled in the art may be made in the arrangement,operation and details of the method and apparatus disclosed. The scopeof protection should be limited only by the following claims.

1. A method comprising: providing, by a remote device, a link fordisplay by a client device; in response to a selection of the link,causing capture of video by a camera of the client device, the clientdevice configured to display the captured video on a screen of theclient device and to provide the captured video to the remote device fordisplay; displaying, by the remote device, the captured video providedby the client device on a screen associated with the remote device;receiving, by the remote device, an operation performed on the videodisplayed by the remote device from a user of the remote device; andproviding, by the remote device, an instruction associated with thereceived operation to the client device, the client device configured tomodify the video displayed by the client device based on theinstruction.
 2. The method of claim 1, further comprising: in responseto a second operation performed on the video displayed by the clientdevice, receiving, by the remote device, a second instruction associatedwith the second operation provided by the client device; and modifying,by the remote device, the video displayed by the remote device based onthe second instruction.
 3. The method of claim 2, wherein the secondoperation is performed via an interface displayed by the client device.4. The method of claim 1, wherein causing capture of video by the camerafurther comprises: in response to the selection of the link, providingan interface for display to the client device requesting the capturedvideo; and in response to an interaction with the interface by a user ofthe client device, providing, by the remote device, an instruction toinitiate the capture of the video by the client device.
 5. The method ofclaim 1, further comprising: recording, by the remote device, one ormore frames of the captured video provided by the client device, the oneor more frames including the modified video.
 6. The method of claim 1,further comprising: providing, by the remote device, a second link fordisplay on an additional device; in response to a selection of the link,providing, by the remote device, a portion of the captured video to theadditional device for display.
 7. The method of claim 1, furthercomprising: determining, by the remote device, a network connectionspeed for a network connection of the client device; and responsive todetermining the network connection speed is below a threshold speed,providing, by the remote device, a second instruction to the clientdevice, the client device configured to display a recommendation tore-configure the network connection of the client device based on thesecond instruction.
 8. The method of claim 1, wherein the remote deviceis configured to perform a video stabilization operation on the capturedvideo provided by the client device before displaying the capturedvideo.
 9. The method of claim 1, wherein the received operationcomprises an annotation to the video displayed by the client device. 10.The method of claim 3, wherein the annotation comprises one of: agraphical highlight, an augmented reality annotation, an outline, or anindication to a portion of the displayed video.
 11. The method of claim1, wherein the received operation comprises moving a cursor on the videodisplayed by the client device.
 12. The method of claim 1, wherein thereceived operation comprises an instruction to stop or freeze thedisplayed video.
 13. The method of claim 1, wherein the client device isconfigured to buffer one or more frames of the captured video, whereinthe received operation comprises an operation to rewind the capturedvideo to a buffered frame from the one or more frames, and whereinproviding the instruction further comprises: providing, by the remotedevice, an identifier of the buffered frame to the client device, theclient device configured to rewind the captured video for playbackbeginning at the buffered frame using the identifier.
 14. The method ofclaim 1, wherein the link comprises a URL included within a textmessage, an email, a web page, or an application interface.
 15. Themethod of claim 1, wherein the captured video is provided to the remotedevice in real-time via an internet video communication protocol. 16.The method of claim 1, wherein the client device comprises one of: amobile device, a tablet computer, a laptop computer, or anothercomputing device.
 17. The method of claim 1, wherein the remote devicecomprises one of: a computer terminal, a mobile device, a tabletcomputer, a laptop computer, a web server, or another computing device.18. The method of claim 1, wherein the operation is performed via aninterface displayed by the remote device.
 19. A non-transitorycomputer-readable storage medium storing executable computerinstructions, the instructions configured to, when executed by ahardware processor, perform steps comprising: providing, by a remotedevice, a link for display by a client device; in response to aselection of the link, causing capture of video by a camera of theclient device, the client device configured to display the capturedvideo on a screen of the client device and to provide the captured videoto the remote device for display; displaying, by the remote device, thecaptured video provided by the client device on a screen associated withthe remote device; receiving, by the remote device, an operationperformed on the video displayed by the remote device from a user of theremote device; and providing, by the remote device, an instructionassociated with the received operation to the client device, the clientdevice configured to modify the video displayed by the client devicebased on the instruction.
 20. The computer-readable storage medium ofclaim 19, wherein the instructions are further configured to performsteps comprising: in response to a second operation performed on thevideo displayed by the client device, receiving, by the remote device, asecond instruction associated with the second operation provided by theclient device; and modifying, by the remote device, the video displayedby the remote device based on the second instruction.